Provisional Restorative Material
Pro-V is BISCO’s line of provisional restorative materials designed to address the different requirements for creating and placing provisional restorations.

PRO-V COAT®
Pro-V Coat is a “first of its kind” separating agent that allows the clinician to utilize the Immediate Dentin Sealing technique without the risk of the provisional bonding to the tooth structure. The proprietary formulation is a water-soluble separating agent that serves to prohibit bonding of the provisional to the adhesive interface, protects the dentin surface from contamination and cleans up effortlessly without any residue.

PRO-V FILL®
Pro-V Fill is a high viscosity, packable composite for use in creating provisional onlay restorations. Pro-V Fill has excellent handling and sculpting properties for direct placement.

Related Items

Ace® All-Bond SE® / All-Bond SE®

Self-Etch Adhesive
All-Bond SE* has set a new standard in self-etch bonding. All-Bond SE is a light-cured, self-etching adhesive that combines etching, priming and bonding in one application.

All-Bond SE can be used as a single-step bonding agent, or the unique radiopaque liner can be used for larger restorations that require reinforced durability. Unlike most current self-etch adhesives, All-Bond SE is fully compatible with light-, self- and dual-cured materials without the use of additional activators. All-Bond SE makes self-etch dental bonding more reliable, more flexible and more compatible with today’s restorative options.

All-Bond SE is also available in convenient cartridges for use with the Ace dispenser. Ace is the patented* easy-to-use delivery system that eliminates steps without compromising bond strength.

Cavity Cleanser™

2% Chlorhexidine Digluconate
BISCO’S Cavity Cleanser is a 2% solution of Chlorhexidine Digluconate (CHG) intended for cleansing and moistening/rewetting cavity preparations. It is recommended for use upon completion of tooth preparation or etching prior to sealing the dentinal tubules. Cleansing of cavity preparations to remove debris and bacteria may decrease post-operative sensitivity1.